(19) |
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(11) |
EP 0 789 914 B2 |
(12) |
NEW EUROPEAN PATENT SPECIFICATION |
(45) |
Date of publication and mentionof the opposition decision: |
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24.08.2005 Bulletin 2005/34 |
(45) |
Mention of the grant of the patent: |
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26.08.1998 Bulletin 1998/35 |
(22) |
Date of filing: 03.11.1995 |
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(51) |
International Patent Classification (IPC)7: G11B 33/04 |
(86) |
International application number: |
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PCT/GB1995/002581 |
(87) |
International publication number: |
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WO 1996/014636 (17.05.1996 Gazette 1996/22) |
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(54) |
APPARATUS FOR HOLDING A COMPACT DISK
GERÄT ZUR AUFBEWAHRUNG VON CDs
DISPOSITIF DE RETENUE DE DISQUE COMPACT
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(84) |
Designated Contracting States: |
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AT BE CH DE DK ES FR GB IE IT LI NL PT SE |
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Designated Extension States: |
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LT LV SI |
(30) |
Priority: |
03.11.1994 GB 9422190
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(43) |
Date of publication of application: |
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20.08.1997 Bulletin 1997/34 |
(73) |
Proprietor: Dubois Ltd. |
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Northants. NN17 4AP (GB) |
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(72) |
Inventors: |
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- PIJANOWSKI, Stefan, Alexander
Northants PE8 4EP (GB)
- FRASER, Anthony, Henry, Joseph
London N5 1RU (GB)
- FARRAR, Peter, Antony
Leeds LS19 6HZ (GB)
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(74) |
Representative: Unwin, Stephen Geoffrey |
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Fry Heath & Spence LLP
The Gables
Massetts Road
Horley Surrey RH6 7DQ Surrey RH6 7DQ (GB) |
(56) |
References cited: :
EP-A- 0 356 539 EP-A- 0 692 791 WO-A-94/05010 DE-A- 3 715 187 GB-A- 2 187 442 US-A- 5 251 750
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EP-A- 0 429 195 WO-A-93/01598 DE-A- 3 425 579 DE-A- 4 107 218 US-A- 4 819 799
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TECHNICAL FIELD
[0001] This invention relates to apparatus for holding a compact disk, to disk storage containers
and video style library boxes incorporating such apparatus.
[0002] By "compact disk", in the context of this specification, is meant not only the relatively
common standard 120mm diameter laser-readable disk such as are currently sold carrying,
for example, pre-recorded music, computer software and data, and similar recordable
disks, but also similar disks of various sizes such as are known or proposed for recording
video, films, interactive games and other information or data.
BACKGROUND ART
[0003] Conventionally, when not in use, such compact disks are stored in clear polystyrene
boxes, known as "jewel cases", wherein the disk is held on a separate tray fitted
in the case and having seven or eight tines arranged to form a boss or "rosette" with
which the aperture in the centre of a compact disk may be releasably engaged.
[0004] The legs or tines of the rosette are shaped such that they extend upwardly from the
tray, curve outwardly, such that they can grip a compact disk, and then, towards their
ends, curve inwardly to provide a boss over which the hole in the compact disk may
be manually pushed.
[0005] It has long been recognised that such apparatus for holding a compact disk is not
very satisfactory because it requires two hands to release a disk and lift it from
the rosette; consequently many people do not attempt to push the centre of the rosette
but instead use just one hand to grasp an outer edge of a compact disk and wrench
it off the rosette thereby bending the disk, sometimes scoring the recorded surface
of the disk on the tines, and eventually distorting or even breaking the tines.
[0006] Such bending and scoring of the disk can be especially critical when, as is now often
the case, the disk carries compressed, or "stacked", computer software, or computer
readable data.
[0007] There have been many attempts to overcome the above problems and provide a more reliable
and readily releasable disk-holding apparatus.
[0008] For example, EPA-0356539 proposed apparatus in which the rosette was provided with
a central pushing part having cranked flap pieces arranged such that pressing down
the pushing part would cause the cranked flap pieces to push a disk up and off the
disk-engagement tines. EPA-0429195 proposed the use of resilient means to urge the
disk out of engagement with the central boss. PCT WO-A-93/01598 proposed a release
button arranged to engage all the inner ends of the legs of the rosette and a spring
designed to remain with no tension during disk storage but to "pop-up" the disk should
the button be pressed. US-A-5,251,750 proposes linking the inner ends of all the tines
by a "live" or "living" hinge produced by a reduced thickness in the moulded material
whilst also suggesting linking the button to four cranked ejection arms arranged such
that depressing the button causes the ejection arms to push a compact disk off the
rosette.
[0009] DE-A-3425579 reflecting the nearest prior art discloses a disk storage cassette having
a spigot arrangement for holding a disk. The spigot arrangement comprises spigot tongues
which are connected by a pressure plate so that the spigot reduces in diameter when
a load is applied to the pressure plate. The spigot tongues are provided with retaining
or locking cams for engaging the central hole of the disk. The disk is held by the
spigot in contact with a raised support on the base of the cassette. The disk storage
cassette further comprises flaps 14 for resiliently urging the compact disk out of
engagement with the spigot arrangement.
[0010] US-A-4 819 799 discloses a disk storage care comprising a disk engaging means having
a fructo-conical shape for positively locking the disk on the case.
[0011] Such prior art is of relatively complex construction so is difficult and hence expensive
to manufacture and/or does not operate as easily or as reliably as may be desired.
[0012] An object of this invention is to improve on the prior art to provide apparatus for
holding a compact disk, suitable for incorporating in a tray of a disk storage container
and in a video style library box, which is reliable and easily operable to release
a compact disk stored thereon. Other potential advantages of the invention will be
apparent from the following description.
DISCLOSURE OF INVENTION
[0013] According to a first aspect of the invention there is provided apparatus for holding
a compact disk having a central hole, the apparatus comprising: a base portion; disk
engaging means extending from the base portion for releasably engaging the central
hole of the disk, the disk engaging means comprising at least two inwardly extending
radial arms each resiliently cantilevered from the base portion, the inner ends of
the arms together forming a button-like member and having rims, or lips, arranged
to securely retain a disk by engaging on the outwardly facing surface of a compact
disk held by the disk engaging means, the arrangement being such that, to release
the disk, pressure must be applied to the button-like member to depress the arms,
and hence depress at least the centre of the compact disk, until movement of the inner
ends of the arms towards each other caused by said depression of the arms is sufficient
to release the engagement of the rims or lips on the outwardly facing surface of the
compact disk.
[0014] Advantageously, the inner ends of adjacent arms forming the button-like member are
interconnected by an integral living hinge, but alternatively the inner ends of the
arms may be interconnected by a second button-like member engaging the inner ends
of each of the arms.
[0015] moreover, the button-like member advantageously presents a generally concave outer
surface so as to reduce the possibility of any accidental contact acting on the Inner
end of any of the arms and thereby accidentally releasing the compact disk.
[0016] Preferably, resilient ejection means arranged to urge the disk out of engagement
with the disk engaging means upon release of the engagement of the rims or lips on
the outwardly facing surface of the disk are provided.
[0017] Furthermore, the resilient ejection means is preferably arranged to support a disk
away from the base when a disk is held by the disk engaging means, so that during
handling and storage the disk is supported by the resilient means to cushion the disk
from any shock.
[0018] Indeed, according to another aspect of the invention there is provided apparatus
for holding a compact disk having a central hole, the apparatus comprising: a base
portion, disk-engaging means extending from the base portion for releasably engaging
the central hole of the disk, and resilient ejection means arranged to urge the compact
disk out of engagement with the disk-engaging means when the disk-engaging means is
released, the resilient ejection means being arranged to resiliently support the disk
away from the base when the disk is held by the disk-engaging means. The resilient
ejection means thus protects the disk from undue shock loads during handling or transit.
[0019] Also, the resilient ejection means preferably comprises a plurality of further resilient
inwardly extending arms cantilevered from the base; alternatively, the resilient ejection
means may comprise one or more pieces of compressible material which is compressed
when a disk is held by the disk engaging means and expands to move the disk out of
engagement with the disk engaging means when the disk engaging means is relesed.
[0020] According to a further aspect of the invention there is provided apparatus for holding
a compact disk having a central hole, the apparatus comprising: a base portion, disk-engaging
means extending from the base portion for releasably engaging the central hole of
the disk, and disk support means on the base portion for supporting the disk at positions
away from the central hole, arranged such that, when the disk engaging means is depressed
and the disk engages the disk support means, the centre of the disk is flexed towards
the base portion so that upon release of the engagement of the disk engaging means
with the central hole the disk is able to revert to its unflexed state so the disk
lifts clear of the disk engaging means.
[0021] The resiliency of the disk itself is used in this arrangement to permit the required
movement of the centre of the disk and to move the disk away from the base portion
when engagement with the disk-engaging means has been released.
[0022] The disk support means are preferably provided at a plurality of locations around
the outer edge of the disk and when the disk is held by the disk engaging means it
is preferably held clear of the disk support means.
[0023] It should be understood that apparatus according to the invention can be incorporated
into a tray for fitting into a conventional "jewel case" compact disk container, or
can be incorporated in a video style library box, and in either case, with the obvious
exception of any separate second button and/or separate resilient ejection means of
compressible material, the tray or the box may be formed as an integral one-piece,
one shot, injection moulding of a plastics material such as polypropylene or a copolymer
of butadiene and styrene.
[0024] Thus, according to another aspect of the invention, there is provide a video style
library box formed as a one-piece moulding characterised by the provision therein
of apparatus as described above for holding a compact disk. Preferably, the disk-engaging
means of the apparatus is integrally formed with a wall of the box.
[0025] Other features of this invention will be apparent from the following description
and the subsidiary claims of the specification.
BRIEF DESCRIPTION OF DRAWINGS
[0026] The invention will now be further described, merely by way of example, with reference
to the following drawings, in which:
Figure 1 is a perspective view of a video style library box incorporating apparatus
for holding a compact disk according to one aspect of the invention;
Figure 2 is a plan view of the box shown in Figure 1;
Figures 3, 4 and 5 show a side view, underneath plan view and end view, respectively,
of the box shown in Figure 1;
Figure 6 is a cross-sectional view taken on the line 6-6 in Figure 2 showing a compact
disk held in the apparatus;
Figure 7 is a similar view to Figure 6 but showing the apparatus in the disk-release
position;
Figure 8 is a schematic cross-sectional view of the apparatus according to the invention
illustrated in the previous Figures taken partially on line 6-6 in Figure 2 and partially
on line 8-8 in Figure 2 and showing a compact disk in position to be engaged with
the apparatus;
Figure 9 is a perspective view of a tray incorporating apparatus for holding a compact
disk fitted in a jewel-case according to another aspect of the invention; and
Figure 10 is a cross-sectional view, corresponding to that of Figure 6, of a further
embodiment of the
BEST MODE OF CARRYING OUT THE INVENTION
[0027] The video style library box shown in Figures 1 to 8 comprises a lid portion 11, a
base portion 12 and a spine portion 13, which is connected to the lid portion 11 and
to the base portion 12 by living hinges 14.
[0028] Within the lid portion 11 moulded, spring clip-like, devices 11 A are provided for
holding a printed booklet or leaflet to be included with the disk, and within the
base portion 12 is moulded a partially annular rim 12A that protects the disk should
any loose booklet or the like be left in the box and also constitutes an aesthetic
frame around the disk held in the box. When the box is closed, male parts 11B of a
closure clip on the lid portion 11 engage with female parts 12B of the clip provided
on the base portion 12.
[0029] Moulded integrally in the base portion 12 is the apparatus for holding a compact
disk (a disk being shown only in Figures 6, 7 and 8), the apparatus comprising the
base portion 12 of the box, two resilient inwardly extending radial arms 15 each cantilevered
from the base portion 12 and interconnected at their inner ends, the inner ends being
formed to provide a disk-engaging button-like member indicated generally as 16 and
described in more detail hereinafter with reference to Figures 6 and 7; and four resilient
inwardly extending disk ejection arms 17 also cantilevered from the base portion 12
as described in more detail hereinafter with reference to Figure 8.
[0030] The box is injection moulded in polypropylene or a copolymer of butadiene and styrene,
and the base portion 12 is apertured, with "cut aways", below the arms 15 and the
arms 17 (as shown in Figure 4) to allow the complete box to be formed in a one-shot,
one-piece, moulding; subsequently (as in conventional library style video boxes) a
clear plastic sheet 18 (see Figures 3 and 4) may be welded across the outside of box,
and a descriptive paper jacket or the like (not shown) may be inserted between the
box and the sheet 18 to identify the contents of the box and also hide any cutaways
in the base 12 of the box that might otherwise be deemed unsightly.
[0031] Referring now to Figures 6 and 7, where the two inwardly extending radial arms 15
are cantilevered from the base portion 12, the base portion 12 may, if desired, be
reinforced by a thickening 19 of the moulding. The disk-engaging button-like member
identified generally as 16 is moulded as two substantially semi-circular segments
20, interconnected by an integral living hinge 21 to ensure that if either segment
is depressed the other segment will also move.
[0032] Although it is preferable for the segments 20 to form together a button-like member
16, it should be understood that in some cases the segments 20 can be mechanically
interconnected by, for example, a separate second button-like member (not shown).
[0033] Moreover, the outer surface of the button-like member 16 may be formed with a generally
concave outer surface as indicated by the dotted line 22 such that any accidental
contact on the button-like member 16 is unlikely to act against the inner ends of
either of the arms 15.
[0034] The semi-circular segments 20 are preferably each moulded with a disk-retaining capping
rim, or lip, 23, which overlies an aperture or cut-away 24 in the respective arm 15
to allow the capping rims, or lips, 23 to be formed during the one-shot moulding operation.
[0035] To engage a compact disk 25 on the apparatus, it is laid with its central aperture
resting over the segments 20. The disk is then manually pressed towards the base portion
12 whereupon the edges of the central aperture ride over chamfered edges 20A of the
segments 20. The downward pressure thus applied by the disk 25 to the segments 20
flexes the arms 15 towards the base portion 12 causing the segments 20 to move towards
each other until they are able to pass through the central aperture so the arms 15
can revert to their unflexed, or substantially unflexed, positions.
[0036] As will be seen in Figure 6, the segments 20 are adapted to engage within the central
aperture of a compact disk, such as shown at 25, with the capping rims, or lips, 23
securely retaining the disk 25 by engaging the upper surface thereof adjacent the
central hole. To release the disk from the apparatus, pressure, such as indicated
by the arrow "P" in Figure 7, is applied to depress the segments 20 and hence the
arms 15 towards the base portion 12, thereby disengaging the capping rims, or lips
23 from the upper surface of the disk 25 and so allowing the disk to be disengaged
from the segments 20. Due to the mechanical interconnection provided between the segments
20, it will be appreciated that even if pressure is not applied centrally to the button-like
member 16, the segments will still all move so as to disengage from the central hole
of the disk 25.
[0037] It will also be appreciated that in order to allow the capping rims, or lips 23 to
disengage from the disk 25 without damaging the edge of the central hole thereof,
at least the centre of the disk 25 must be allowed to move to some extent towards
the base portion 12 as the pressure P is applied. The resilient ejection arms 17 also
allow the centre of the disk 25 to be pressed towards the base portion 12 as the disk
25 is being engaged on the apparatus.
[0038] Disengagement of the disk 25 from the segments 20 is effected by the four resilient
inwardly extending disk ejection arms 17 which act to move the disk 25 away from the
base portion 12 when the engagement of the capping rims or lips 23 with the disk is
released. The disk 25 thus "pops up" ready for removal from the apparatus. The arms
15 may also help lift the disk 25 as they revert to their unflexed positions when
pressure P is removed.
[0039] As will be seen in Figure 8, the disk ejection arms 17, which are shown on the section
line 8-8 in Figure 2, are cantilevered from the base portion 12 at a distance "x"
at least 20mm radially outward from the centre and preferably at least 30mm therefrom,
and at an angle "A" in the range 10 to 40 degrees and preferably in the range 20 to
30 degrees with respect to the base portion 12 when in the unstressed state, such
that when the disk 25 is engaged by the segments 20, the arms 17 are flexed through
an angle of only 5 to 20 degrees and preferably only 10 to 15 degrees and therefore
are not unduly stressed and hence can reliably function over a long period. The arms
17 are each moulded with a pad-like end portion 26 adapted to engage on the annular
inner area of the disk 25 that does not carry recorded information.
[0040] The ends of the arms 17 are preferably arranged to engage an area of the disk 25
approximately 5-10mm radially outward of the edge of the central hole thereof.
[0041] It will thus be appreciated that the disk 25 can be reliably and easily removed from
the apparatus by simply pressing the button-like member 16 whereupon the disk 25 is
released from engagement therewith and the resilient arms 17 act to lift the disk
25 a few millimetres so the disk 25 can be easily gripped by its outer edge and removed
from the apparatus. The button-like member 16 is designed such that finger pressure
on either part thereof will reliably release the disk 25 from engagement with the
rim, or lip, 23 thereof.
[0042] The ejection arms 17 are flexed as a disk 25 is engaged on the apparatus so whilst
the compact disk 25 is held in the apparatus it is resiliently supported against the
underside of the capping rims or lips 23 and away from the base portion 12 by the
resilient arms 17. The disk 25 is thereby protected from undue shock loads during
handling or transit. The resilient ejection means 17 also serve to support the disk
25 when pressure P is applied to the button-like member 16 and so reduce flexure of
the disk whilst the capping rims or lips 23 are disengaging from the disk.
[0043] Whereas the apparatus illustrated in the drawings includes four resilient arms 17,
the apparatus should include at least two and preferably at least three such arms
17 in order to provide stable support and ejection of a disk 25, and the apparatus
may include more than four arms 17 although spatial limitation may restrict the number
of arms 17 that can be accommodated without unduly weakening the base 12 and/or compromising
the reliability of the arms 17.
[0044] Moreover, the resilient arms 17 may be omitted, and the resilient disk ejection means
may comprise one or more pieces of compressible material, e.g. foam, located in a
position such as that shown by the dotted circle 17A in Figure 2, to act between the
base 12 and the disk 25.
[0045] As will also be seen in Figure 8, the two resilient disk-engaging arms 15, which
are shown as taken on the section line 6-6 in Figure 2, are cantilevered from the
base portion 12 at a distance "y" radially outward from the centre, which is preferably
at least 10mm and more preferably at least 15mm, and at an angle "B" in the range
5 to 30 degrees, and preferably in the range 10-20 degrees, with respect to the base
portion 12 when in the unstressed state, so that the arrangement is such that with
a disk 25 engaged thereon, as shown in Figure 6, the arms 15 are flexed through an
angle of 10 degrees or less and preferably 5 degrees or less thereby ensuring that
the apparatus can be repeatedly and reliably operated over a very long period.
[0046] As shown in Figure 8, the arms 15, including the segments 20, have a length substantially
similar to the distance "y" as the spacing between the segments 20 is typically less
than 5mm. The arms preferably have a width of at least 5mm, and more preferably of
10 to 15mm, and a thickness of 1 to 2mm.
[0047] It will be appreciated that the arms 15 may have other shapes, eg they may be inclined
to the base portion 12 where they are cantilevered thereto and then extend substantially
parallel to the base portion 12 where they join with the segments 20.
[0048] Although the apparatus described has two arms 15, in a modified form of the apparatus
(not shown) it may include three such arms each having its inner end moulded as a
segment of a composite button-like disk-engaging member: and whereas even more than
three such arms may be provided, it is considered that spatial limitations would prevent
four or more such arms from being sufficiently sturdy to reliably withstand repeated
use and would increase the difficulty of providing reliable mechanical interconnection
between the ends of each of the arms.
[0049] The apparatus according to the invention may also, as shown in Figure 9, be incorporated
in a disk-holding tray for fitting in an otherwise conventional jewel-case. In figure
9, the jewel-case includes a conventional box portion 27 and lid portion 28 hinged
together at 29 in known manner. Within the box portion 27 is inserted the apparatus
for holding a compact disk, in the form of a tray, shown generally at 30, which comprises
a partially annular rim 30A (of slightly different shape to that of Figure 1), a base
portion 31, two resilient inwardly extending arms 32 cantilevered from the base portion
31 and interconnected at their inner ends, with the inner ends being formed to provide
a disk-engaging button 33 in similar manner to the button-like member 16 of the apparatus
described with reference to the previous Figures. Moreover, the jewel-case tray 30
shown in Figure 9 also includes four resilient inwardly extending disk ejection arms
34 similar to the arms 17 shown in Figure 1. Thus it should be understood that the
apparatus of Figure 9 is operated and functions in similar manner to that of the previous
Figures and therefore does not require further description.
[0050] In a further embodiment, the resilient ejection means may be dispensed with and the
resilience of the disk itself used to permit the required movement for engagement
of the disk with the engagement means and, on removal of the disk , to lift the disk
clear of the engagement means once their engagement with the central hole of the disk
as been released. This further embodiment will be described with reference to Figure
10.
[0051] The apparatus shown in Figure 10 has resilient arms 15 and a button-like member 16
etc similar to those of the embodiments described above so will not be described further.
Disk support means 35 are, however, provided on the base portion 12 for supporting
the disk, when pressure P is applied to the button-like member 16 as described above,
the support being provided at positions away from the central hole of the disk 25,
and preferably at the outer edge of the disk 25 as shown in Figure 10.
[0052] The disk support means 35 are preferably arranged so that the disk 25 is held just
clear of the support means 35 when the arms 15 are in their substantially unflexed
positions whilst a disk 25 is held in the apparatus as shown in Figure 10. When pressure
P is applied to the button-like member 16, the disk 25 is moved towards the base portion
12 until its edges engage the support means 35. Further depression of the button-like
member then presses the centre of the disk 25 towards the base portion 12 so the centre
of the disk is flexed downwards until the capping rims or lips 23 release their engagement
with the disk 25 and the disk is free to revert to its unstressed state whereupon
the centre of the disk is able to move away from the base portion 12 and the disks
25 "pops up" ready from removal from the apparatus. As in the embodiments described
above, the arms 15 also help lift the disk 25 once the button-like member 16 has been
pushed through the central aperture to the underside of the disk and the pressure
P removed.
[0053] Although flexing of a compact disk is generally avoided (as in the embodiments described
in relations to Figures 1 to 9), if the disk is supported at at least three, and preferably
six, locations around its periphery, the flexure is distributed around the entire
disk so that it flexes in a substantially similar manner to the flexing of a diaphragm.
[0054] As mentioned above in the description of Figures 1 to 10, at least the base portion
12 or 31, the ejection arms 17 or 34 (when provided) and the radial arms 15 or 32,
may be formed as an integral plastics moulding and preferably the entire disk-holding
tray or the video style library box is formed as a one-shot, integral moulding.
[0055] It will also be appreciated from the above that the apparatus for holding a disk
may be provided in a video-style library box, preferably integrally moulded with a
wall thereof as illustrated, or may be provided in some other form of box or enclosure
either integrally moulded therewith or as an insert or tray installed therein.
1. Apparatus for holding a compact disk having a central hole, the apparatus comprising:
a base portion (12); disk engaging means (15, 16) extending from the base portion
(12) for releasably engaging the central hole of the disk (25), the disk engaging
means comprising at least two inwardly extending radial arms (15) each resiliently
cantilevered from the base portion (12), the inner ends of the arms (15) together
forming a button-like member (16) and having rims, or lips, (23) arranged to securely
retain a disk (25) by engaging on the outwardly facing surface of a compact disk held
by the disk engaging means, the disk engaging means (15, 16) being arranged such that,
to release the disk (25), pressure must be applied to the button-like member (16)
to depress the arms (15), and hence depress at least the centre of the compact disk
(25), until movement of the inner ends of the arms towards each other caused by said
depression of the arms (15) is sufficient to release the engagement of the rims or
lips (23) on the outwardly facing surface of the compact disk (25).
2. Apparatus for holding a compact disk as claimed in Claim 1 in which the inner ends
of adjacent arms forming the button-like member (16) are interconnected by an integral
living hinge (21).
3. Apparatus for holding a compact disk as claimed in Claim 1 or 2 in which the button-like
member (16) presents a generally concave outer surface (22).
4. Apparatus for holding a compact disk as claimed in Claim 1, 2 or 3 in which the inner
ends of the arms (15) are interconnected by a second button-like member engaging the
inner ends of each of the arms.
5. Apparatus for holding a compact disk as claimed in any preceding claim in which the
arms (15) connect to the base portion (12) at positions at least 10mm radially outward
from the centre and preferably at least 15mm therefrom.
6. Apparatus for holding a compact disk as claimed in any preceding claim in which, in
the unstressed state, the arms (15) extend from the base portion (12) at an angle
in the range 5 to 30 degrees and preferably in the range 10 to 20 degrees therefrom.
7. Apparatus for holding a compact disk as claimed in any preceding claim in which the
arms (15) are arranged to flex through an angle of 10 degrees or less so as to release
their engagement with the disk (25) and preferably through an angle of 5 degrees or
less.
8. Apparatus for holding a compact disk as claimed in any preceding claim having two
or three resilient inwardly extending radial arms (15) only.
9. Apparatus as claimed in any preceding claim having resilient ejection means (17) arranged
to urge the disk (25) out of engagement with the disk engaging means upon release
of the engagement of the rims or lips (23) on the outwardly facing surface of the
disk (25).
10. Apparatus for holding a compact disk as claimed in Claim 9 in which the resilient
ejection means (17) are arranged to resiliently support the disk (25) away from the
base (12) when the disk is held by the disk engaging means.
11. Apparatus for holding a compact disk as claimed in Claim 9 or 10 in which the resilient
ejection means comprises a plurality of further inwardly extending arms (17) resiliently
cantilevered from the base portion (12).
12. Apparatus for holding a compact disk as claimed in Claim 11 in which the further arms
(17) connect to the base portion (12) at positions at least 20mm radially outward
from the centre thereof and preferably at least 30mm from the centre thereof.
13. Apparatus for holding a compact disk as claimed in Claim 11 or 12 in which in the
unstressed state, the further arms (17) extend away from the base portion (12) at
an angle in the range 10 to 40 degrees and preferably in the range 20 to 30 degrees
thereto.
14. Apparatus for holding a compact disk as claimed in Claim 11, 12 or 13 in which the
further arms (17) are arranged to flex through an angle in the range 5 to 20 degrees
and preferably 10 to 15 degrees, in use, between their stressed position and their
unstressed position.
15. Apparatus for holding a compact disk as claimed in any of Claims 11 to 14 comprising
at least three further arms (17) and preferably four further arms (17) only.
16. Apparatus for holding a compact disk as claimed in Claim 9 in which the resilient
ejection means (17) comprises one or more pieces of compressible material which is
compressed when the disk (25) is held by the disk engaging means (15, 16) and expands
to move the disk (25) out of engagement with the disk engaging means (15, 16) when
the disk engaging means is released.
17. Apparatus for holding a compact disk as claimed in any of Claims 9 to 16 in which
the resilient ejection means (17) is positioned so as to engage an area of the disk
(25) radially outward of the central hole thereof, preferably 5 to 10mm radially outward
from the edge thereof.
18. Apparatus for holding a compact disk as claimed in Claim 17 in which the resilient
ejection means (17) is positioned so as to engage an area of the disk (25) which does
not carry recorded information.
19. Apparatus for holding a compact disk as claimed in any preceding claim in which the
base portion (12) forms part of a tray (30) for fitting into a disk storage container.
20. Apparatus for holding a compact disk as claimed in any of Claims 1 to 18 in which
the base portion (12) forms part of a wall of a disk storage container.
21. Apparatus for holding a compact disk as claimed in any preceding claim, in which the
base portion (12) and disk engaging means (15, 16) are formed as an integral plastics
moulding.
22. Apparatus for holding a compact disk as claimed in Claim 21 in which the plastics
material is polypropylene or a copolymer of butadiene and styrene.
23. Apparatus for holding a compact disk having a central hole, the apparatus comprising:
a base portion (12), disk-engaging means (15, 16) extending from the base portion
(12) for releasably engaging the central hole of the disk (25), and disk support means
(35) on the base portion (12) for supporting the disk (25) at positions away from
the central hole, arranged such that, when the disk engaging means (15, 16) is depressed
and the disk (25) engages the disk support means (35), the centre of the disk (25)
is flexed towards the base portion (12) so that upon release of the engagement of
the disk engaging means (15, 16) with the central hole, the disk (25) is able to revert
to its unflexed state so the disk (25) lifts clear of the disk engaging means (15,
16).
24. Apparatus as claimed in Claim 23 in which the disk support means (35) is arranged
to support the disk (25) at a plurality of locations around the outer edge thereof
when pressure is applied to the centre of the disk (25).
25. Apparatus as claimed in Claims 23 or 24 in which the disk-engaging means (15, 16)
hold the disk (25) clear of the disk support means (35) when they are engaged with
the central hole of the disk (25).
26. Apparatus for holding a compact disk having a central hole, the apparatus comprising:
a base portion (12), disk-engaging means (15, 16) extending from the base portion
(12) for releasably engaging the central hole of the disk (25); and resilient ejection
means (17) arranged to urge the compact disk (25) out of engagement with the disk-engaging
means (15, 16) when the disk-engaging means is released, the resilient ejection means
(17) being arranged to resiliently support the disk (25) away from the base portion
(12) when the disk (25) is held by the disk-engaging means.
27. Apparatus as claimed in any preceding claim holding a compact disk (25).
28. A video style library box (11, 12, 13) comprising apparatus for holding a compact
disk (25) as claimed in any preceding claim.
29. A video style library box as claimed in Claim 28 in which the box (11, 12, 13) is
formed as a one-piece moulding.
30. A video style library box as claimed in Claim 29 in which the disk engaging means
(15, 16) is integrally formed with a wall (12) of the box (11, 12, 13).
1. Vorrichtung zum Halten einer Compact Disc mit einem mittleren Loch, wobei die Vorrichtung
folgendes umfaßt: einen Bodenteil (12), ein Disceingriffsmittel (15, 16), das sich
von dem Bodenteil (12) aus erstreckt und lösbar in das mittlere Loch der Disc (25)
eingreift, wobei das Disceingriffsmittel wenigstens zwei nach innen verlaufende radiale
Arme (15) umfaßt, die jeweils vom Bodenteil (12) freitragend elastisch auskragen,
wobei die Innenenden der Arme (15) zusammen ein knopfähnliches Element (16) bilden
und Ränder oder Lippen (23) aufweisen, die so angeordnet sind, daß sie eine Disc (25)
festhalten, indem sie sich an die nach außen gerichtete Fläche einer von dem Disceingriffsmittel
gehaltenen Compact Disc anlegen, wobei das Disceingriffsmittel (15, 16) so angeordnet
ist, daß zum Freigeben der Disc (25) Druck auf das knopfähnliche Element (16) aufgebracht
werden muß, um die Arme (15) und somit wenigstens die Mitte der Compact Disc (25)
niederzudrücken, bis eine Bewegung der Innenenden der Arme aufeinander zu, die durch
das genannte Niederdrücken der Arme (15) bewirkt wird, ausreicht, um die Anlage der
Ränder oder Lippen (23) an der nach außen gerichteten Fläche der Compact Disc (25)
zu lösen.
2. Vorrichtung zum Halten einer Compact Disc nach Anspruch 1, bei der die Innenenden
benachbarter Arme, die das knopfähnliche Element (16) bilden, durch ein integrales
Filmscharnier (21) verbunden sind.
3. Vorrichtung zum Halten einer Compact Disc nach Anspruch 1 oder 2, bei der das knopfähnliche
Element (16) eine allgemein konkave Außenfläche (22) darbietet.
4. Vorrichtung zum Halten einer Compact Disc nach Anspruch 1, 2 oder 3, bei der die Innenenden
der Arme (15) durch ein zweites knopfähnliches Element verbunden sind, das in die
Innenenden jedes der Arme eingreift.
5. Vorrichtung zum Halten einer Compact Disc nach einem der vorherigen Ansprüche, bei
der die Arme (15) an Positionen mit dem Bodenteil (12) verbunden sind, die sich wenigstens
10 mm radial auswärts von der Mitte und vorzugsweise wenigstens 15 mm davon befinden.
6. Vorrichtung zum Halten einer Compact Disc nach einem der vorherigen Ansprüche, bei
der im unbelasteten Zustand die Arme (15) von dem Bodenteil (12) aus in einem Winkel
im Bereich von 5 bis 30 Grad und vorzugsweise im Bereich von 10 bis 20 Grad davon
verlaufen.
7. Vorrichtung zum Halten einer Compact Disc nach einem der vorherigen Ansprüche, bei
der die Arme (15) so angeordnet sind, daß sie sich um einen Winkel von 10 Grad oder
weniger biegen, um ihren Eingriff mit der Disc (25) zu lösen, und vorzugsweise um
einen Winkel von 5 Grad oder weniger.
8. Vorrichtung zum Halten einer Compact Disc nach einem der vorherigen Ansprüche, die
nur zwei oder drei elastische, nach innen verlaufende radiale Arme (15) hat.
9. Vorrichtung nach einem der vorherigen Ansprüche mit einem elastischen Auswurfmittel
(17), das so angeordnet ist, daß es die Disc (25) nach dem Lösen der Anlage der Ränder
oder Lippen (23) an der nach außen gerichteten Fläche der Disc (25) außer Eingriff
mit dem Disceingriffsmittel drückt.
10. Vorrichtung zum Halten einer Compact Disc nach Anspruch 9, bei der das elastische
Auswurfmittel (17) so angeordnet ist, daß es die Disc (25) elastisch vom Boden (12)
weg abstützt, wenn die Disc vom Disceingriffsmittel gehalten wird.
11. Vorrichtung zum Halten einer Compact Disc nach Anspruch 9 oder 10, bei der das elastische
Auswurfmittel eine Mehrzahl von weiteren nach innen verlaufenden Armen (17) umfaßt,
die vom Bodenteil (12) elastisch freitragend auskragen.
12. Vorrichtung zum Halten einer Compact Disc nach Anspruch 11, bei der die weiteren Arme
(17) an Positionen mit dem Bodenteil (12) verbunden sind, die sich wenigstens 20 mm
von deren Mitte radial nach außen und vorzugsweise wenigstens 30 mm von deren Mitte
befinden.
13. Vorrichtung zum Halten einer Compact Disc nach Anspruch 11 oder 12, bei der im unbelasteten
Zustand sich die weiteren Arme (17) vom Bodenteil (12) aus in einem Winkel im Bereich
von 10 bis 40 Grad und vorzugsweise im Bereich von 20 bis 30 Grad dazu erstrecken.
14. Vorrichtung zum Halten einer Compact Disc nach Anspruch 11, 12 oder 13, bei der die
weiteren Arme (17) so angeordnet sind, daß sie sich beim Gebrauch über einen Winkel
im Bereich von 5 bis 20 Grad und vorzugsweise von 10 bis 15 Grad zwischen ihrer belasteten
Position und ihrer unbelasteten Position biegen.
15. Vorrichtung zum Halten einer Compact Disc nach einem der Ansprüche 11 bis 14, umfassend
wenigstens drei weitere Arme (17) und vorzugsweise nur vier weitere Arme (17).
16. Vorrichtung zum Halten einer Compact Disc nach Anspruch 9, bei der das elastische
Auswurfmittel (17) ein oder mehrere Stücke aus komprimierbarem Material umfaßt, das
komprimiert wird, wenn die Disc (25) von dem Disceingriffsmittel (15, 16) gehalten
wird, und das sich ausdehnt, um die Disc (25) außer Eingriff mit dem Disceingriffsmittel
(15, 16) zu bewegen, wenn das Disceingriffsmittel gelöst wird.
17. Vorrichtung zum Halten einer Compact Disc nach einem der Ansprüche 9 bis 16, bei der
das elastische Auswurfmittel (17) so positioniert ist, daß es an einem Bereich der
Disc (25) radial auswärts von deren mittlerem Loch, vorzugsweise 5 bis 10 mm von dessen
Rand radial nach außen angreift.
18. Vorrichtung zum Halten einer Compact Disc nach Anspruch 17, bei der das elastische
Auswurfmittel (17) so positioniert ist, daß es an einem Bereich der Disc (25) angreift,
auf dem sich keine aufgezeichneten Informationen befinden.
19. Vorrichtung zum Halten einer Compact Disc nach einem der vorherigen Ansprüche, bei
der der Bodenteil (12) Teil einer Schale (30) zum Montieren in einem Discaufbewahrungsbehälter
bildet.
20. Vorrichtung zum Halten einer Compact Disc nach einem der Ansprüche 1 bis 18, bei der
der Bodenteil (12) Teil einer Wand eines Discaufbewahrungsbehälters bildet.
21. Vorrichtung zum Halten einer Compact Disc nach einem der vorherigen Ansprüche, bei
der der Bodenteil (12) und das Disceingriffsmittel (15, 16) als einstückiges Plastikformteil
ausgebildet sind.
22. Vorrichtung zum Halten einer Compact Disc nach Anspruch 21, bei der das Plastikmaterial
Polypropylen oder ein Copolymer aus Butadien und Styren ist.
23. Vorrichtung zum Halten einer Compact Disc mit einem mittleren Loch, wobei die Vorrichtung
folgendes umfaßt: einen Bodenteil (12), ein Disceingriffsmittel (15, 16), das sich
vom Bodenteil (12) aus erstreckt und lösbar in das mittlere Loch der Disc (25) eingreift,
und ein Discauflagemittel (35) am Bodenteil (12) zum Abstützen der Disc (25) an vom
mittleren Loch entfernt gelegenen Positionen, so angeordnet, daß, wenn das Disceingriffsmittel
(15, 16) niedergedrückt wird und die Disc (25) auf dem Discauflagemittel (35) aufliegt,
die Mitte der Disc (25) in Richtung auf den Bodenteil (12) gebogen wird, so daß nach
dem Lösen des Eingriffs des Disceingriffsmittels (15, 16) mit dem mittleren Loch die
Disc (25) in ihren ungebogenen Zustand zurückkehren kann, so daß die Disc (25) vom
Disceingriffsmittel (15, 16) abgehoben wird.
24. Vorrichtung nach Anspruch 23, bei der das Discauflagemittel (35) so angeordnet ist,
daß es die Disc (25) an einer Mehrzahl von Stellen um dessen Außenrand abstützt, wenn
Druck auf die Mitte der Disc (25) aufgebracht wird.
25. Vorrichtung nach Anspruch 23 oder 24, bei der das Disceingriffsmittel (15, 16) die
Disc (25) von dem Discauflagemittel (35) entfernthält, wenn es sich mit dem mittleren
Loch der Disc (25) in Eingriff befindet.
26. Vorrichtung zum Halten einer Compact Disc mit einem mittleren Loch, wobei die Vorrichtung
folgendes umfaßt: einen Bodenteil (12), ein Disceingriffsmittel (15, 16), das sich
vom Bodenteil (12) aus erstreckt und lösbar in das mittlere Loch der Disc (25) eingreift,
und ein elastisches Auswurfmittel (17), das so angeordnet ist, daß es die Compact
Disc (25) außer Eingriff mit dem Disceingriffsmittel (15, 16) drückt, wenn das Disceingriffsmittel
gelöst wird, wobei das elastische Auswurfmittel (17) so angeordnet ist, daß es die
Disc (25) vom Bodenteil (12) weg elastisch abstützt, wenn die Disc (25) von dem Disceingriffsmittel
gehalten wird.
27. Vorrichtung nach einem der vorherigen Ansprüche, die eine Compact Disc (25) hält.
28. Videostilartiges Bibliothekfutteral (11, 12, 13), umfassend eine Vorrichtung zum Halten
einer Compact Disc (25) nach einem der vorherigen Ansprüche.
29. Videostilartiges Bibliothekfutteral nach Anspruch 28, bei dem das Futteral (11, 12,
13) als einstückiges Formteil ausgebildet ist.
30. Videostilartiges Bibliothekfutteral nach Anspruch 29, bei dem das Disceingriffsmittel
(15, 16) einstückig mit einer Wand (12) des Futterals (11, 12, 13) ausgebildet ist.
1. Appareil pour retenir un disque compact ayant un trou central, l'appareil comprenant
: une partie de base (12); un moyen (15, 16) d'engagement du disque (15, 16) dépassant
de la partie de base (12) pour s'engager dans le trou central du disque (25) de manière
à pouvoir s'en dégager, le moyen d'engagement du disque comprenant au moins deux bras
radiaux (15) dirigés vers l'intérieur, reliés chacun élastiquement en porte-à-faux
à la partie de base (12), les extrémités intérieures des bras (15) formant ensemble
un élément en forme de bouton (16) et ayant des rebords, ou lèvres, (23) agencés pour
retenir fermement un disque (25) en s'engageant sur la surface dirigée vers l'extérieur
d'un disque compact maintenu par le moyen d'engagement du disque, le moyen (15, 16)
d'engagement du disque étant agencé de telle sorte que, pour libérer le disque (25),
une pression doit être exercée sur l'élément en bouton (16) pour appuyer sur les bras
(15) et appuyer ainsi au moins sur le centre du disque compact (25) jusqu'à ce que
le mouvement des extrémités intérieures des bras l'une vers l'autre causé par ladite
pression sur les bras (15) soit suffisant pour libérer l'engagement des rebords ou
lèvres (23) sur la surface du disque compact (25) dirigée vers l'extérieur.
2. Appareil pour retenir un disque compact selon la Revendication 1, dans lequel les
extrémités intérieures de bras adjacents formant l'élément en bouton (16) sont interconnectées
par une charnière élastique qui en fait partie intégrante (21).
3. Appareil pour retenir un disque compact selon la Revendication 1 ou 2, dans lequel
l'élément en bouton (16) présente une surface extérieure de forme générale concave
(22).
4. Appareil pour retenir un disque compact selon la Revendication 1, 2 ou 3, dans lequel
les extrémités intérieures des bras (15) sont interconnectées par un deuxième élément
en bouton s'engageant avec les extrémités intérieures de chacun des bras.
5. Appareil pour retenir un disque compact selon l'une quelconque des revendications
précédentes, dans lequel les bras (15) sont reliés à la partie de base (12) à des
positions éloignées radialement du centre d'au moins 10 mm vers l'extérieur, et de
préférence d'au moins 15 mm.
6. Appareil pour retenir un disque compact selon l'une quelconque des revendications
précédentes, dans lequel, à l'état libre, les bras (15) dépassent de la partie de
base (12) en faisant avec elle un angle de 5 à 30 degrés et de préférence de 10 à
20 degrés.
7. Appareil pour retenir un disque compact selon l'une quelconque des revendications
précédentes, dans lequel les bras (15) sont agencés pour fléchir suivant un angle
de 10 degrés ou moins de manière à libérer leur engagement avec le disque (25) et
de préférence suivant un angle de 5 degrés ou moins.
8. Appareil pour retenir un disque compact selon l'une quelconque des revendications
précédentes, ayant seulement deux ou trois bras radiaux élastiques dirigés vers l'intérieur
(15).
9. Appareil selon l'une quelconque des revendications précédentes ayant des moyens d'éjection
élastiques (17) agencés pour pousser le disque (25) hors de son engagement avec le
moyen d'engagement du disque lors de la libération de l'engagement des rebords ou
lèvres (23) sur la surface du disque (25) dirigée vers l'extérieur.
10. Appareil pour retenir un disque compact selon la Revendication 9, dans lequel les
moyens d'éjection élastiques (17) sont agencés pour supporter élastiquement le disque
(25) à distance de la base (12) lorsque le disque est maintenu par le moyen d'engagement
du disque.
11. Appareil pour retenir un disque compact selon la Revendication 9 ou 10, dans lequel
le moyen d'éjection élastique comprend plusieurs autres bras (17) dirigés vers l'intérieur,
reliés élastiquement en porte-à-faux à la partie de base (12).
12. Appareil pour retenir un disque compact selon la Revendication 11, dans lequel les
autres bras (17) sont reliés à la partie de base (12) à des positions éloignées radialement
de son centre d'au moins 20 mm vers l'extérieur, et de préférence d'au moins 30 mm
de son centre.
13. Appareil pour retenir un disque compact selon la Revendication 11 ou 12, dans lequel,
à l'état libre, les autres bras (17) s'écartent de la partie de base (12) en faisant
avec elle un angle de 10 à 40 degrés et de préférence de 20 à 30 degrés.
14. Appareil pour retenir un disque compact selon la Revendication 11, 12 ou 13, dans
lequel les autres bras (17) sont agencés pour fléchir, en utilisation, suivant un
angle de 5 à 20 degrés et de préférence de 10 à 15 degrés entre leur position comprimée
et leur position libre.
15. Appareil pour retenir un disque compact selon l'une quelconque des Revendications
11 à 14, comprenant au moins trois autres bras (17) et de préférence quatre autres
bras (17) seulement.
16. Appareil pour retenir un disque compact selon la Revendication 9, dans lequel le moyen
d'éjection élastique (17) comprend une ou plusieurs pièces de matériau compressible
qui est comprimé quand le disque (25) est retenu par le moyen (15, 16) d'engagement
du disque et se détend pour déplacer le disque (25) hors de son engagement avec le
moyen (15, 16) d'engagement du disque lorsque le moyen d'engagement du disque est
libéré.
17. Appareil pour retenir un disque compact selon l'une quelconque des Revendications
9 à 16, dans lequel le moyen d'éjection élastique (17) est positionné de manière à
engager une surface du disque (25) radialement à l'extérieur de son trou central,
de préférence 5 à 10 mm radialement vers l'extérieur par rapport au bord dudit trou
central.
18. Appareil pour retenir un disque compact selon la Revendication 17, dans lequel le
moyen d'éjection élastique (17) est positionné de manière à engager une surface du
disque (25) qui ne porte pas d'informations enregistrées.
19. Appareil pour retenir un disque compact selon l'une quelconque des revendications
précédentes, dans lequel la partie de base (12) fait partie d'un plateau (30) devant
s'adapter dans une boîte de rangement de disque.
20. Appareil pour retenir un disque compact selon l'une quelconque des Revendications
1 à 18, dans lequel la partie de base (12) fait partie d'une paroi d'une boîte de
rangement de disque.
21. Appareil pour retenir un disque compact selon l'une quelconque des revendications
précédentes, dans lequel la partie de base (12) et le moyen (15, 16) d'engagement
du disque forment une pièce moulée d'un seul tenant en plastique.
22. Appareil pour retenir un disque compact selon la Revendication 21, dans lequel la
matière plastique est du polypropylène ou un copolymère de butadiène et de styrène.
23. Appareil pour retenir un disque compact ayant un trou central, l'appareil comprenant
: une partie de base (12), un moyen (15, 16) d'engagement du disque dépassant de la
partie de base (12) pour s'engager dans le trou central du disque (25) de manière
à pouvoir s'en dégager, et un moyen (35) de support du disque sur la partie de base
(12) pour supporter le disque (25) à des positions éloignées du trou central, agencé
de telle sorte que, lorsqu'on appuie sur le moyen (15, 16) d'engagement du disque
et que le disque (25) est engagé avec le moyen (35) de support du disque, le centre
du disque (25) est fléchi vers la partie de base (12) de telle sorte que, lors du
dégagement du moyen (15, 16) d'engagement du disque d'avec le trou central, le disque
(25) est à même de revenir à son état non fléchi de telle sorte que le disque (25)
se soulève du moyen (15, 16) d'engagement du disque.
24. Appareil selon la Revendication 23, dans lequel le moyen (35) de support du disque
est agencé pour supporter le disque (25) à plusieurs emplacements autour de son bord
extérieur lorsqu'une pression est exercée au centre du disque (25).
25. Appareil selon les Revendications 23 ou 24, dans lequel le moyen (15, 16) d'engagement
du disque maintient le disque (25) à distance du moyen (35) de support du disque lorsqu'il
est engagé avec le trou central du disque (25).
26. Appareil pour retenir un disque compact ayant un trou central, l'appareil comprenant
: une partie de base (12); un moyen (15, 16) d'engagement du disque dépassant de la
partie de base (12) pour s'engager dans le trou central du disque (25) de manière
à pouvoir s'en dégager; et un moyen d'éjection élastique (17) agencé pour pousser
le disque compact (25) hors de son engagement avec le moyen (15, 16) d'engagement
du disque lors de la libération du moyen d'engagement du disque, le moyen d'éjection
élastique (17) étant agencé pour supporter élastiquement le disque (25) à distance
de la partie de base (12) lorsque le disque (25) est retenu par le moyen d'engagement
du disque.
27. Appareil selon l'une quelconque des revendications précédentes retenant un disque
compact (25).
28. Boîte de type vidéothèque (11, 12, 13) comprenant un dispositif pour retenir un disque
compact (25) selon l'une quelconque des revendications précédentes.
29. Boîte de type vidéothèque selon la Revendication 28, dans laquelle la boîte (11, 12,
13) est moulée d'une seule pièce.
30. Boîte de type vidéothèque selon la Revendication 29, dans laquelle le moyen (15, 16)
d'engagement du disque fait partie intégrante d'une paroi (12) de la boîte (11, 12,
13).